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mariadb/sql/sql_help.cc
Dmitry Lenev 6ddd01c27a Patch that changes metadata locking subsystem to use mutex per lock and 
condition variable per context instead of one mutex and one conditional
variable for the whole subsystem.

This should increase concurrency in this subsystem.

It also opens the way for further changes which are necessary to solve
such bugs as bug #46272 "MySQL 5.4.4, new MDL: unnecessary deadlock"
and bug #37346 "innodb does not detect deadlock between update and alter
table".

Two other notable changes done by this patch:

- MDL subsystem no longer implicitly acquires global intention exclusive
  metadata lock when per-object metadata lock is acquired. Now this has
  to be done by explicit calls outside of MDL subsystem.
- Instead of using separate MDL_context for opening system tables/tables
  for purposes of I_S we now create MDL savepoint in the main context
  before opening tables and rollback to this savepoint after closing
  them. This means that it is now possible to get ER_LOCK_DEADLOCK error
  even not inside a transaction. This might happen in unlikely case when
  one runs DDL on one of system tables while also running DDL on some
  other tables. Cases when this ER_LOCK_DEADLOCK error is not justified
  will be addressed by advanced deadlock detector for MDL subsystem which
  we plan to implement.

mysql-test/include/handler.inc:
  Adjusted handler_myisam.test and handler_innodb.test to the fact that
  exclusive metadata locks on tables are now acquired according to
  alphabetical order of fully qualified table names instead of order
  in which tables are mentioned in statement.
mysql-test/r/handler_innodb.result:
  Adjusted handler_myisam.test and handler_innodb.test to the fact that
  exclusive metadata locks on tables are now acquired according to
  alphabetical order of fully qualified table names instead of order
  in which tables are mentioned in statement.
mysql-test/r/handler_myisam.result:
  Adjusted handler_myisam.test and handler_innodb.test to the fact that
  exclusive metadata locks on tables are now acquired according to
  alphabetical order of fully qualified table names instead of order
  in which tables are mentioned in statement.
mysql-test/r/mdl_sync.result:
  Adjusted mdl_sync.test to the fact that exclusive metadata locks on
  tables are now acquired according to alphabetical order of fully
  qualified table names instead of order in which tables are mentioned
  in statement.
mysql-test/t/mdl_sync.test:
  Adjusted mdl_sync.test to the fact that exclusive metadata locks on
  tables are now acquired according to alphabetical order of fully
  qualified table names instead of order in which tables are mentioned
  in statement.
sql/events.cc:
  Instead of using separate MDL_context for opening system tables we now
  create MDL savepoint in the main context before opening such tables
  and rollback to this savepoint after closing them. To support this
  change methods of THD responsible for saving/restoring open table
  state were changed to use Open_tables_backup class which in addition
  to Open_table_state has a member for this savepoint. As result code
  opening/closing system tables was changed to use Open_tables_backup
  instead of Open_table_state class as well.
sql/ha_ndbcluster.cc:
  Since manipulations with open table state no longer install proxy
  MDL_context it does not make sense to perform them in order to
  satisfy assert in mysql_rm_tables_part2(). Removed them per agreement
  with Cluster team. This has not broken test suite since scenario in
  which deadlock can occur and assertion fails is not covered by tests.
sql/lock.cc:
  MDL subsystem no longer implicitly acquires global intention exclusive
  metadata lock when per-object exclusive metadata lock is acquired.
  Now this has to be done by explicit calls outside of MDL subsystem.
sql/log.cc:
  Instead of using separate MDL_context for opening system tables we now
  create MDL savepoint in the main context before opening such tables
  and rollback to this savepoint after closing them. To support this
  change methods of THD responsible for saving/restoring open table
  state were changed to use Open_tables_backup class which in addition
  to Open_table_state has a member for this savepoint. As result code
  opening/closing system tables was changed to use Open_tables_backup
  instead of Open_table_state class as well.
sql/mdl.cc:
  Changed metadata locking subsystem to use mutex per lock and condition
  variable per context instead of one mutex and one conditional variable
  for the whole subsystem.
  Changed approach to handling of global metadata locks. Instead of
  implicitly acquiring intention exclusive locks when user requests
  per-object upgradeable or exclusive locks now we require them to be
  acquired explicitly in the same way as ordinary metadata locks.
  In fact global lock are now ordinary metadata locks in new GLOBAL
  namespace.
  
  To implement these changes:
  - Removed LOCK_mdl mutex and COND_mdl condition variable.
  - Introduced MDL_lock::m_mutex mutexes which protect individual lock
    objects.
  - Replaced mdl_locks hash with MDL_map class, which has hash for
    MDL_lock objects as a member and separate mutex which protects this
    hash. Methods of this class allow to find(), find_or_create() or
    remove() MDL_lock objects in concurrency-friendly fashion (i.e.
    for most common operation, find_or_create(), we don't acquire
    MDL_lock::m_mutex while holding MDL_map::m_mutex. Thanks to MikaelR
    for this idea and benchmarks!). Added three auxiliary members to
    MDL_lock class (m_is_destroyed, m_ref_usage, m_ref_release) to
    support this concurrency-friendly behavior.
  - Introduced MDL_context::m_ctx_wakeup_cond condition variable to be
    used for waiting until this context's pending request can be
    satisfied or its thread has to perform actions to resolve potential
    deadlock. Context which want to wait add ticket corresponding to the
    request to an appropriate queue of waiters in MDL_lock object so
    they can be noticed when other contexts change state of lock and be
    awaken by them by signalling on MDL_context::m_ctx_wakeup_cond.
    As consequence MDL_ticket objects has to be used for any waiting
    in metadata locking subsystem including one which happens in
    MDL_context::wait_for_locks() method.
    Another consequence is that MDL_context is no longer copyable and
    can't be saved/restored when working with system tables.
  - Made MDL_lock an abstract class, which delegates specifying exact
    compatibility matrix to its descendants. Added MDL_global_lock child
    class for global lock (The old is_lock_type_compatible() method
    became can_grant_lock() method of this class). Added MDL_object_lock
    class to represent per-object lock (The old MDL_lock::can_grant_lock()
    became its method). Choice between two classes happens based on MDL
    namespace in MDL_lock::create() method.
  - Got rid of MDL_lock::type member as its meaning became ambigous for
    global locks.
  - To simplify waking up of contexts waiting for lock split waiting queue
    in MDL_lock class in two queues. One for pending requests for exclusive
    (including intention exclusive) locks and another for requests for
    shared locks.
  - Added virtual wake_up_waiters() method to MDL_lock, MDL_global_lock and
    MDL_object_lock classes which allows to wake up waiting contexts after
    state of lock changes. Replaced old duplicated code with calls to this
    method.
  - Adjusted MDL_context::try_acquire_shared_lock()/exclusive_lock()/
    global_shared_lock(), MDL_ticket::upgrade_shared_lock_to_exclusive_lock()
    and MDL_context::release_ticket() methods to use MDL_map and
    MDL_lock::m_mutex instead of single LOCK_mdl mutex and wake up
    waiters according to the approach described above. The latter method
    also was renamed to MDL_context::release_lock().
  - Changed MDL_context::try_acquire_shared_lock()/exclusive_lock() and
    release_lock() not to handle global locks. They are now supposed to
    be taken explicitly like ordinary metadata locks.
  - Added helper MDL_context::try_acquire_global_intention_exclusive_lock()
    and acquire_global_intention_exclusive_lock() methods.
  - Moved common code from MDL_context::acquire_global_shared_lock() and
    acquire_global_intention_exclusive_lock() to new method -
    MDL_context::acquire_lock_impl().
  - Moved common code from MDL_context::try_acquire_shared_lock(),
    try_acquire_global_intention_exclusive_lock()/exclusive_lock()
    to MDL_context::try_acquire_lock_impl().
  - Since acquiring of several exclusive locks can no longer happen under
    single LOCK_mdl mutex the approach to it had to be changed. Now we do
    it in one by one fashion. This is done in alphabetical order to avoid
    deadlocks. Changed MDL_context::acquire_exclusive_locks() accordingly
    (as part of this change moved code responsible for acquiring single
    exclusive lock to new MDL_context::acquire_exclusive_lock_impl()
    method).
  - Since we no longer have single LOCK_mdl mutex which protects all
    MDL_context::m_is_waiting_in_mdl members using these members to
    determine if we have really awaken context holding conflicting
    shared lock became inconvinient. Got rid of this member and changed
    notify_shared_lock() helper function and process of acquiring
    of/upgrading to exclusive lock not to rely on such information.
    Now in MDL_context::acquire_exclusive_lock_impl() and
    MDL_ticket::upgrade_shared_lock_to_exclusive_lock() we simply
    re-try to wake up threads holding conflicting shared locks after
    small time out.
  - Adjusted MDL_context::can_wait_lead_to_deadlock() and
    MDL_ticket::has_pending_conflicting_lock() to use per-lock
    mutexes instead of LOCK_mdl. To do this introduced
    MDL_lock::has_pending_exclusive_lock() method.
sql/mdl.h:
  Changed metadata locking subsystem to use mutex per lock and condition
  variable per context instead of one mutex and one conditional variable
  for the whole subsystem. In order to implement this change:
  
  - Added MDL_key::cmp() method to be able to sort MDL_key objects
    alphabetically. Changed length fields in MDL_key class to uint16
    as 16-bit is enough for length of any key.
  - Changed MDL_ticket::get_ctx() to return pointer to non-const
    object in order to be able to use MDL_context::awake() method
    for such contexts.
  - Got rid of unlocked versions of can_wait_lead_to_deadlock()/
    has_pending_conflicting_lock() methods in MDL_context and
    MDL_ticket. We no longer has single mutex which protects all
    locks. Thus one always has to use versions of these methods
    which acquire per-lock mutexes.
  - MDL_request_list type of list now counts its elements.
  - Added MDL_context::m_ctx_wakeup_cond condition variable to be used
    for waiting until this context's pending request can be satisfied
    or its thread has to perform actions to resolve potential deadlock.
    Added awake() method to wake up context from such wait.
    Addition of condition variable made MDL_context uncopyable.
    As result we no longer can save/restore MDL_context when working
    with system tables. Instead we create MDL savepoint before opening
    those tables and rollback to it once they are closed.
  - MDL_context::release_ticket() became release_lock() method.
  - Added auxiliary MDL_context::acquire_exclusive_lock_impl() method
    which does all necessary work to acquire exclusive lock on one object
    but should not be used directly as it does not enforce any asserts
    ensuring that no deadlocks are possible.
  - Since we no longer need to know if thread trying to acquire exclusive
    lock managed to wake up any threads having conflicting shared locks
    (as, anyway, we will try to wake up such threads again shortly)
  - MDL_context::m_is_waiting_in_mdl member became unnecessary and
    notify_shared_lock() no longer needs to be friend of MDL_context.
  
  Changed approach to handling of global metadata locks. Instead of
  implicitly acquiring intention exclusive locks when user requests
  per-object upgradeable or exclusive locks now we require them to be
  acquired explicitly in the same way as ordinary metadata locks.
  
  - Added new GLOBAL namespace for such locks.
  - Added new type of lock to be requested MDL_INTENTION_EXCLISIVE.
  - Added MDL_context::try_acquire_global_intention_exclusive_lock()
    and acquire_global_intention_exclusive_lock() methods.
  - Moved common code from MDL_context::acquire_global_shared_lock()
    and acquire_global_intention_exclusive_lock() to new method -
    MDL_context::acquire_lock_impl().
  - Moved common code from MDL_context::try_acquire_shared_lock(),
    try_acquire_global_intention_exclusive_lock()/exclusive_lock()
    to MDL_context::try_acquire_lock_impl().
  - Added helper MDL_context::is_global_lock_owner() method to be
    able easily to find what kind of global lock this context holds.
  - MDL_context::m_has_global_shared_lock became unnecessary as
    global read lock is now represented by ordinary ticket.
  - Removed assert in MDL_context::set_lt_or_ha_sentinel() which became
    false for cases when we execute LOCK TABLES under global read lock
    mode.
sql/mysql_priv.h:
  Instead of using separate MDL_context for opening system tables we now
  create MDL savepoint in the main context before opening such tables
  and rollback to this savepoint after closing them. To support this
  change methods of THD responsible for saving/restoring open table
  state were changed to use Open_tables_backup class which in addition
  to Open_table_state has a member for this savepoint. As result calls
  opening/closing system tables were changed to use Open_tables_backup
  instead of Open_table_state class as well.
sql/sp.cc:
  Instead of using separate MDL_context for opening system tables we now
  create MDL savepoint in the main context before opening such tables
  and rollback to this savepoint after closing them. To support this
  change methods of THD responsible for saving/restoring open table
  state were changed to use Open_tables_backup class which in addition
  to Open_table_state has a member for this savepoint. As result code
  opening/closing system tables was changed to use Open_tables_backup
  instead of Open_table_state class as well.
sql/sp.h:
  Instead of using separate MDL_context for opening system tables we now
  create MDL savepoint in the main context before opening such tables
  and rollback to this savepoint after closing them. To support this
  change methods of THD responsible for saving/restoring open table
  state were changed to use Open_tables_backup class which in addition
  to Open_table_state has a member for this savepoint. As result code
  opening/closing system tables was changed to use Open_tables_backup
  instead of Open_table_state class as well.
sql/sql_base.cc:
  close_thread_tables():
    Since we no longer use separate MDL_context for opening system
    tables we need to avoid releasing all transaction locks when
    closing system table. Releasing metadata lock on system table
    is now responsibility of THD::restore_backup_open_tables_state().
  open_table_get_mdl_lock(),
  Open_table_context::recover_from_failed_open():
    MDL subsystem no longer implicitly acquires global intention exclusive
    metadata lock when per-object upgradable or exclusive metadata lock is
    acquired. So this have to be done explicitly from these calls.
    Changed Open_table_context class to store MDL_request object for
    global intention exclusive lock acquired when opening tables.
  open_table():
    Do not release metadata lock if we have failed to open table as
    this lock might have been acquired by one of previous statements
    in transaction, and therefore should not be released.
  open_system_tables_for_read()/close_system_tables()/
  open_performance_schema_table():
    Instead of using separate MDL_context for opening system tables we now
    create MDL savepoint in the main context before opening such tables
    and rollback to this savepoint after closing them. To support this
    change methods of THD responsible for saving/restoring open table
    state were changed to use Open_tables_backup class which in addition
    to Open_table_state has a member for this savepoint. As result code
    opening/closing system tables was changed to use Open_tables_backup
    instead of Open_table_state class as well.
  close_performance_schema_table():
    Got rid of duplicated code.
sql/sql_class.cc:
  Instead of using separate MDL_context for opening system tables we now
  create MDL savepoint in the main context before opening such tables
  and rollback to this savepoint after closing them. To support this
  change methods of THD responsible for saving/restoring open table
  state were changed to use Open_tables_backup class which in addition
  to Open_table_state has a member for this savepoint. Also releasing
  metadata lock on system table is now responsibility of
  THD::restore_backup_open_tables_state().
  Adjusted assert in THD::cleanup() to take into account fact that now
  we also use MDL sentinel for global read lock.
sql/sql_class.h:
  Instead of using separate MDL_context for opening system tables we now
  create MDL savepoint in the main context before opening such tables
  and rollback to this savepoint after closing them. As result:
  - 'mdl_context' member was moved out of Open_tables_state to THD class.
    enter_locked_tables_mode()/leave_locked_tables_mode() had to follow.
  - Methods of THD responsible for saving/restoring open table state were
    changed to use Open_tables_backup class which in addition to
    Open_table_state has a member for this savepoint.
  Changed Open_table_context class to store MDL_request object for
  global intention exclusive lock acquired when opening tables.
sql/sql_delete.cc:
  MDL subsystem no longer implicitly acquires global intention exclusive
  metadata lock when per-object exclusive metadata lock is acquired.
  Now this has to be done by explicit calls outside of MDL subsystem.
sql/sql_help.cc:
  Instead of using separate MDL_context for opening system tables we now
  create MDL savepoint in the main context before opening such tables
  and rollback to this savepoint after closing them. To support this
  change methods of THD responsible for saving/restoring open table
  state were changed to use Open_tables_backup class which in addition
  to Open_table_state has a member for this savepoint. As result code
  opening/closing system tables was changed to use Open_tables_backup
  instead of Open_table_state class as well.
sql/sql_parse.cc:
  Adjusted assert reload_acl_and_cache() to the fact that global read
  lock now takes full-blown metadata lock.
sql/sql_plist.h:
  Added support for element counting to I_P_List list template.
  One can use policy classes to specify if such counting is needed
  or not needed for particular list.
sql/sql_show.cc:
  Instead of using separate MDL_context for opening tables for I_S
  purposes we now create MDL savepoint in the main context before
  opening tables and rollback to this savepoint after closing them.
  To support this and similar change for system tables methods of
  THD responsible for saving/restoring open table state were changed
  to use Open_tables_backup class which in addition to Open_table_state
  has a member for this savepoint. As result code opening/closing tables
  for I_S purposes was changed to use Open_tables_backup instead of
  Open_table_state class as well.
sql/sql_table.cc:
  mysql_rm_tables_part2():
    Since now global intention exclusive metadata lock is ordinary
    metadata lock we no longer can rely that by releasing MDL locks
    on all tables we will release all locks acquired by this routine.
    So in non-LOCK-TABLES mode we have to release all locks acquired
    explicitly.
  prepare_for_repair(), mysql_alter_table():
    MDL subsystem no longer implicitly acquires global intention
    exclusive metadata lock when per-object exclusive metadata lock
    is acquired. Now this has to be done by explicit calls outside of
    MDL subsystem.
sql/tztime.cc:
  Instead of using separate MDL_context for opening system tables we now
  create MDL savepoint in the main context before opening such tables
  and rollback to this savepoint after closing them. To support this
  change methods of THD responsible for saving/restoring open table
  state were changed to use Open_tables_backup class which in addition
  to Open_table_state has a member for this savepoint. As result code
  opening/closing system tables was changed to use Open_tables_backup
  instead of Open_table_state class as well.
  Also changed code not to use special mechanism for open system tables
  when it is not really necessary.
2010-01-21 23:43:03 +03:00

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/* Copyright (C) 2000 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include "mysql_priv.h"
struct st_find_field
{
const char *table_name, *field_name;
Field *field;
};
/* Used fields */
static struct st_find_field init_used_fields[]=
{
{ "help_topic", "help_topic_id", 0},
{ "help_topic", "name", 0},
{ "help_topic", "help_category_id", 0},
{ "help_topic", "description", 0},
{ "help_topic", "example", 0},
{ "help_category", "help_category_id", 0},
{ "help_category", "parent_category_id", 0},
{ "help_category", "name", 0},
{ "help_keyword", "help_keyword_id", 0},
{ "help_keyword", "name", 0},
{ "help_relation", "help_topic_id", 0},
{ "help_relation", "help_keyword_id", 0}
};
enum enum_used_fields
{
help_topic_help_topic_id= 0,
help_topic_name,
help_topic_help_category_id,
help_topic_description,
help_topic_example,
help_category_help_category_id,
help_category_parent_category_id,
help_category_name,
help_keyword_help_keyword_id,
help_keyword_name,
help_relation_help_topic_id,
help_relation_help_keyword_id
};
/*
Fill st_find_field structure with pointers to fields
SYNOPSIS
init_fields()
thd Thread handler
tables list of all tables for fields
find_fields array of structures
count size of previous array
RETURN VALUES
0 all ok
1 one of the fileds was not found
*/
static bool init_fields(THD *thd, TABLE_LIST *tables,
struct st_find_field *find_fields, uint count)
{
Name_resolution_context *context= &thd->lex->select_lex.context;
DBUG_ENTER("init_fields");
context->resolve_in_table_list_only(tables);
for (; count-- ; find_fields++)
{
/* We have to use 'new' here as field will be re_linked on free */
Item_field *field= new Item_field(context,
"mysql", find_fields->table_name,
find_fields->field_name);
if (!(find_fields->field= find_field_in_tables(thd, field, tables, NULL,
0, REPORT_ALL_ERRORS, 1,
TRUE)))
DBUG_RETURN(1);
bitmap_set_bit(find_fields->field->table->read_set,
find_fields->field->field_index);
/* To make life easier when setting values in keys */
bitmap_set_bit(find_fields->field->table->write_set,
find_fields->field->field_index);
}
DBUG_RETURN(0);
}
/*
Returns variants of found topic for help (if it is just single topic,
returns description and example, or else returns only names..)
SYNOPSIS
memorize_variant_topic()
thd Thread handler
topics Table of topics
count number of alredy found topics
find_fields Filled array of information for work with fields
RETURN VALUES
names array of names of found topics (out)
name name of found topic (out)
description description of found topic (out)
example example for found topic (out)
NOTE
Field 'names' is set only if more than one topic is found.
Fields 'name', 'description', 'example' are set only if
found exactly one topic.
*/
void memorize_variant_topic(THD *thd, TABLE *topics, int count,
struct st_find_field *find_fields,
List<String> *names,
String *name, String *description, String *example)
{
DBUG_ENTER("memorize_variant_topic");
MEM_ROOT *mem_root= thd->mem_root;
if (count==0)
{
get_field(mem_root,find_fields[help_topic_name].field, name);
get_field(mem_root,find_fields[help_topic_description].field, description);
get_field(mem_root,find_fields[help_topic_example].field, example);
}
else
{
if (count == 1)
names->push_back(name);
String *new_name= new (thd->mem_root) String;
get_field(mem_root,find_fields[help_topic_name].field,new_name);
names->push_back(new_name);
}
DBUG_VOID_RETURN;
}
/*
Look for topics by mask
SYNOPSIS
search_topics()
thd Thread handler
topics Table of topics
find_fields Filled array of info for fields
select Function to test for matching help topic.
Normally 'help_topic.name like 'bit%'
RETURN VALUES
# number of topics found
names array of names of found topics (out)
name name of found topic (out)
description description of found topic (out)
example example for found topic (out)
NOTE
Field 'names' is set only if more than one topic was found.
Fields 'name', 'description', 'example' are set only if
exactly one topic was found.
*/
int search_topics(THD *thd, TABLE *topics, struct st_find_field *find_fields,
SQL_SELECT *select, List<String> *names,
String *name, String *description, String *example)
{
DBUG_ENTER("search_topics");
int count= 0;
READ_RECORD read_record_info;
init_read_record(&read_record_info, thd, topics, select, 1, 0, FALSE);
while (!read_record_info.read_record(&read_record_info))
{
if (!select->cond->val_int()) // Doesn't match like
continue;
memorize_variant_topic(thd,topics,count,find_fields,
names,name,description,example);
count++;
}
end_read_record(&read_record_info);
DBUG_RETURN(count);
}
/*
Look for keyword by mask
SYNOPSIS
search_keyword()
thd Thread handler
keywords Table of keywords
find_fields Filled array of info for fields
select Function to test for matching keyword.
Normally 'help_keyword.name like 'bit%'
key_id help_keyword_if of found topics (out)
RETURN VALUES
0 didn't find any topics matching the mask
1 found exactly one topic matching the mask
2 found more then one topic matching the mask
*/
int search_keyword(THD *thd, TABLE *keywords, struct st_find_field *find_fields,
SQL_SELECT *select, int *key_id)
{
DBUG_ENTER("search_keyword");
int count= 0;
READ_RECORD read_record_info;
init_read_record(&read_record_info, thd, keywords, select, 1, 0, FALSE);
while (!read_record_info.read_record(&read_record_info) && count<2)
{
if (!select->cond->val_int()) // Dosn't match like
continue;
*key_id= (int)find_fields[help_keyword_help_keyword_id].field->val_int();
count++;
}
end_read_record(&read_record_info);
DBUG_RETURN(count);
}
/*
Look for all topics with keyword
SYNOPSIS
get_topics_for_keyword()
thd Thread handler
topics Table of topics
relations Table of m:m relation "topic/keyword"
find_fields Filled array of info for fields
key_id Primary index to use to find for keyword
RETURN VALUES
# number of topics found
names array of name of found topics (out)
name name of found topic (out)
description description of found topic (out)
example example for found topic (out)
NOTE
Field 'names' is set only if more than one topic was found.
Fields 'name', 'description', 'example' are set only if
exactly one topic was found.
*/
int get_topics_for_keyword(THD *thd, TABLE *topics, TABLE *relations,
struct st_find_field *find_fields, int16 key_id,
List<String> *names,
String *name, String *description, String *example)
{
uchar buff[8]; // Max int length
int count= 0;
int iindex_topic, iindex_relations;
Field *rtopic_id, *rkey_id;
DBUG_ENTER("get_topics_for_keyword");
if ((iindex_topic= find_type((char*) primary_key_name,
&topics->s->keynames, 1+2)-1)<0 ||
(iindex_relations= find_type((char*) primary_key_name,
&relations->s->keynames, 1+2)-1)<0)
{
my_message(ER_CORRUPT_HELP_DB, ER(ER_CORRUPT_HELP_DB), MYF(0));
DBUG_RETURN(-1);
}
rtopic_id= find_fields[help_relation_help_topic_id].field;
rkey_id= find_fields[help_relation_help_keyword_id].field;
topics->file->ha_index_init(iindex_topic,1);
relations->file->ha_index_init(iindex_relations,1);
rkey_id->store((longlong) key_id, TRUE);
rkey_id->get_key_image(buff, rkey_id->pack_length(), Field::itRAW);
int key_res= relations->file->index_read_map(relations->record[0],
buff, (key_part_map) 1,
HA_READ_KEY_EXACT);
for ( ;
!key_res && key_id == (int16) rkey_id->val_int() ;
key_res= relations->file->index_next(relations->record[0]))
{
uchar topic_id_buff[8];
longlong topic_id= rtopic_id->val_int();
Field *field= find_fields[help_topic_help_topic_id].field;
field->store((longlong) topic_id, TRUE);
field->get_key_image(topic_id_buff, field->pack_length(), Field::itRAW);
if (!topics->file->index_read_map(topics->record[0], topic_id_buff,
(key_part_map)1, HA_READ_KEY_EXACT))
{
memorize_variant_topic(thd,topics,count,find_fields,
names,name,description,example);
count++;
}
}
topics->file->ha_index_end();
relations->file->ha_index_end();
DBUG_RETURN(count);
}
/*
Look for categories by mask
SYNOPSIS
search_categories()
thd THD for init_read_record
categories Table of categories
find_fields Filled array of info for fields
select Function to test for if matching help topic.
Normally 'help_vategory.name like 'bit%'
names List of found categories names (out)
res_id Primary index of found category (only if
found exactly one category)
RETURN VALUES
# Number of categories found
*/
int search_categories(THD *thd, TABLE *categories,
struct st_find_field *find_fields,
SQL_SELECT *select, List<String> *names, int16 *res_id)
{
Field *pfname= find_fields[help_category_name].field;
Field *pcat_id= find_fields[help_category_help_category_id].field;
int count= 0;
READ_RECORD read_record_info;
DBUG_ENTER("search_categories");
init_read_record(&read_record_info, thd, categories, select,1,0,FALSE);
while (!read_record_info.read_record(&read_record_info))
{
if (select && !select->cond->val_int())
continue;
String *lname= new (thd->mem_root) String;
get_field(thd->mem_root,pfname,lname);
if (++count == 1 && res_id)
*res_id= (int16) pcat_id->val_int();
names->push_back(lname);
}
end_read_record(&read_record_info);
DBUG_RETURN(count);
}
/*
Look for all topics or subcategories of category
SYNOPSIS
get_all_items_for_category()
thd Thread handler
items Table of items
pfname Field "name" in items
select "where" part of query..
res list of finded names
*/
void get_all_items_for_category(THD *thd, TABLE *items, Field *pfname,
SQL_SELECT *select, List<String> *res)
{
DBUG_ENTER("get_all_items_for_category");
READ_RECORD read_record_info;
init_read_record(&read_record_info, thd, items, select,1,0,FALSE);
while (!read_record_info.read_record(&read_record_info))
{
if (!select->cond->val_int())
continue;
String *name= new (thd->mem_root) String();
get_field(thd->mem_root,pfname,name);
res->push_back(name);
}
end_read_record(&read_record_info);
DBUG_VOID_RETURN;
}
/*
Send to client answer for help request
SYNOPSIS
send_answer_1()
protocol - protocol for sending
s1 - value of column "Name"
s2 - value of column "Description"
s3 - value of column "Example"
IMPLEMENTATION
Format used:
+----------+------------+------------+
|name |description |example |
+----------+------------+------------+
|String(64)|String(1000)|String(1000)|
+----------+------------+------------+
with exactly one row!
RETURN VALUES
1 Writing of head failed
-1 Writing of row failed
0 Successeful send
*/
int send_answer_1(Protocol *protocol, String *s1, String *s2, String *s3)
{
DBUG_ENTER("send_answer_1");
List<Item> field_list;
field_list.push_back(new Item_empty_string("name",64));
field_list.push_back(new Item_empty_string("description",1000));
field_list.push_back(new Item_empty_string("example",1000));
if (protocol->send_result_set_metadata(&field_list,
Protocol::SEND_NUM_ROWS | Protocol::SEND_EOF))
DBUG_RETURN(1);
protocol->prepare_for_resend();
protocol->store(s1);
protocol->store(s2);
protocol->store(s3);
if (protocol->write())
DBUG_RETURN(-1);
DBUG_RETURN(0);
}
/*
Send to client help header
SYNOPSIS
send_header_2()
protocol - protocol for sending
is_it_category - need column 'source_category_name'
IMPLEMENTATION
+- -+
|+-------------------- | +----------+--------------+
||source_category_name | |name |is_it_category|
|+-------------------- | +----------+--------------+
||String(64) | |String(64)|String(1) |
|+-------------------- | +----------+--------------+
+- -+
RETURN VALUES
result of protocol->send_result_set_metadata
*/
int send_header_2(Protocol *protocol, bool for_category)
{
DBUG_ENTER("send_header_2");
List<Item> field_list;
if (for_category)
field_list.push_back(new Item_empty_string("source_category_name",64));
field_list.push_back(new Item_empty_string("name",64));
field_list.push_back(new Item_empty_string("is_it_category",1));
DBUG_RETURN(protocol->send_result_set_metadata(&field_list, Protocol::SEND_NUM_ROWS |
Protocol::SEND_EOF));
}
/*
strcmp for using in qsort
SYNOPSIS
strptrcmp()
ptr1 (const void*)&str1
ptr2 (const void*)&str2
RETURN VALUES
same as strcmp
*/
extern "C" int string_ptr_cmp(const void* ptr1, const void* ptr2)
{
String *str1= *(String**)ptr1;
String *str2= *(String**)ptr2;
return strcmp(str1->c_ptr(),str2->c_ptr());
}
/*
Send to client rows in format:
column1 : <name>
column2 : <is_it_category>
SYNOPSIS
send_variant_2_list()
protocol Protocol for sending
names List of names
cat Value of the column <is_it_category>
source_name name of category for all items..
RETURN VALUES
-1 Writing fail
0 Data was successefully send
*/
int send_variant_2_list(MEM_ROOT *mem_root, Protocol *protocol,
List<String> *names,
const char *cat, String *source_name)
{
DBUG_ENTER("send_variant_2_list");
String **pointers= (String**)alloc_root(mem_root,
sizeof(String*)*names->elements);
String **pos;
String **end= pointers + names->elements;
List_iterator<String> it(*names);
for (pos= pointers; pos!=end; (*pos++= it++)) ;
my_qsort(pointers,names->elements,sizeof(String*),string_ptr_cmp);
for (pos= pointers; pos!=end; pos++)
{
protocol->prepare_for_resend();
if (source_name)
protocol->store(source_name);
protocol->store(*pos);
protocol->store(cat,1,&my_charset_latin1);
if (protocol->write())
DBUG_RETURN(-1);
}
DBUG_RETURN(0);
}
/*
Prepare simple SQL_SELECT table.* WHERE <Item>
SYNOPSIS
prepare_simple_select()
thd Thread handler
cond WHERE part of select
table goal table
error code of error (out)
RETURN VALUES
# created SQL_SELECT
*/
SQL_SELECT *prepare_simple_select(THD *thd, Item *cond,
TABLE *table, int *error)
{
if (!cond->fixed)
cond->fix_fields(thd, &cond); // can never fail
/* Assume that no indexes cover all required fields */
table->covering_keys.clear_all();
SQL_SELECT *res= make_select(table, 0, 0, cond, 0, error);
if (*error || (res && res->check_quick(thd, 0, HA_POS_ERROR)) ||
(res && res->quick && res->quick->reset()))
{
delete res;
res=0;
}
return res;
}
/*
Prepare simple SQL_SELECT table.* WHERE table.name LIKE mask
SYNOPSIS
prepare_select_for_name()
thd Thread handler
mask mask for compare with name
mlen length of mask
tables list of tables, used in WHERE
table goal table
pfname field "name" in table
error code of error (out)
RETURN VALUES
# created SQL_SELECT
*/
SQL_SELECT *prepare_select_for_name(THD *thd, const char *mask, uint mlen,
TABLE_LIST *tables, TABLE *table,
Field *pfname, int *error)
{
Item *cond= new Item_func_like(new Item_field(pfname),
new Item_string(mask,mlen,pfname->charset()),
new Item_string("\\",1,&my_charset_latin1),
FALSE);
if (thd->is_fatal_error)
return 0; // OOM
return prepare_simple_select(thd, cond, table, error);
}
/*
Server-side function 'help'
SYNOPSIS
mysqld_help()
thd Thread handler
RETURN VALUES
FALSE Success
TRUE Error and send_error already commited
*/
bool mysqld_help(THD *thd, const char *mask)
{
Protocol *protocol= thd->protocol;
SQL_SELECT *select;
st_find_field used_fields[array_elements(init_used_fields)];
TABLE_LIST *leaves= 0;
TABLE_LIST tables[4];
List<String> topics_list, categories_list, subcategories_list;
String name, description, example;
int count_topics, count_categories, error;
uint mlen= strlen(mask);
size_t i;
MEM_ROOT *mem_root= thd->mem_root;
DBUG_ENTER("mysqld_help");
bzero((uchar*)tables,sizeof(tables));
tables[0].alias= tables[0].table_name= (char*) "help_topic";
tables[0].lock_type= TL_READ;
tables[0].next_global= tables[0].next_local=
tables[0].next_name_resolution_table= &tables[1];
tables[1].alias= tables[1].table_name= (char*) "help_category";
tables[1].lock_type= TL_READ;
tables[1].next_global= tables[1].next_local=
tables[1].next_name_resolution_table= &tables[2];
tables[2].alias= tables[2].table_name= (char*) "help_relation";
tables[2].lock_type= TL_READ;
tables[2].next_global= tables[2].next_local=
tables[2].next_name_resolution_table= &tables[3];
tables[3].alias= tables[3].table_name= (char*) "help_keyword";
tables[3].lock_type= TL_READ;
tables[0].db= tables[1].db= tables[2].db= tables[3].db= (char*) "mysql";
init_mdl_requests(tables);
/*
HELP must be available under LOCK TABLES.
Reset and backup the current open tables state to
make it possible.
*/
Open_tables_backup open_tables_state_backup;
if (open_system_tables_for_read(thd, tables, &open_tables_state_backup))
goto error2;
/*
Init tables and fields to be usable from items
tables do not contain VIEWs => we can pass 0 as conds
*/
thd->lex->select_lex.context.table_list=
thd->lex->select_lex.context.first_name_resolution_table= &tables[0];
if (setup_tables(thd, &thd->lex->select_lex.context,
&thd->lex->select_lex.top_join_list,
tables, &leaves, FALSE))
goto error;
memcpy((char*) used_fields, (char*) init_used_fields, sizeof(used_fields));
if (init_fields(thd, tables, used_fields, array_elements(used_fields)))
goto error;
for (i=0; i<sizeof(tables)/sizeof(TABLE_LIST); i++)
tables[i].table->file->init_table_handle_for_HANDLER();
if (!(select=
prepare_select_for_name(thd,mask,mlen,tables,tables[0].table,
used_fields[help_topic_name].field,&error)))
goto error;
count_topics= search_topics(thd,tables[0].table,used_fields,
select,&topics_list,
&name, &description, &example);
delete select;
if (count_topics == 0)
{
int key_id;
if (!(select=
prepare_select_for_name(thd,mask,mlen,tables,tables[3].table,
used_fields[help_keyword_name].field,
&error)))
goto error;
count_topics= search_keyword(thd,tables[3].table, used_fields, select,
&key_id);
delete select;
count_topics= (count_topics != 1) ? 0 :
get_topics_for_keyword(thd,tables[0].table,tables[2].table,
used_fields,key_id,&topics_list,&name,
&description,&example);
}
if (count_topics == 0)
{
int16 category_id;
Field *cat_cat_id= used_fields[help_category_parent_category_id].field;
if (!(select=
prepare_select_for_name(thd,mask,mlen,tables,tables[1].table,
used_fields[help_category_name].field,
&error)))
goto error;
count_categories= search_categories(thd, tables[1].table, used_fields,
select,
&categories_list,&category_id);
delete select;
if (!count_categories)
{
if (send_header_2(protocol,FALSE))
goto error;
}
else if (count_categories > 1)
{
if (send_header_2(protocol,FALSE) ||
send_variant_2_list(mem_root,protocol,&categories_list,"Y",0))
goto error;
}
else
{
Field *topic_cat_id= used_fields[help_topic_help_category_id].field;
Item *cond_topic_by_cat=
new Item_func_equal(new Item_field(topic_cat_id),
new Item_int((int32)category_id));
Item *cond_cat_by_cat=
new Item_func_equal(new Item_field(cat_cat_id),
new Item_int((int32)category_id));
if (!(select= prepare_simple_select(thd, cond_topic_by_cat,
tables[0].table, &error)))
goto error;
get_all_items_for_category(thd,tables[0].table,
used_fields[help_topic_name].field,
select,&topics_list);
delete select;
if (!(select= prepare_simple_select(thd, cond_cat_by_cat,
tables[1].table, &error)))
goto error;
get_all_items_for_category(thd,tables[1].table,
used_fields[help_category_name].field,
select,&subcategories_list);
delete select;
String *cat= categories_list.head();
if (send_header_2(protocol, TRUE) ||
send_variant_2_list(mem_root,protocol,&topics_list, "N",cat) ||
send_variant_2_list(mem_root,protocol,&subcategories_list,"Y",cat))
goto error;
}
}
else if (count_topics == 1)
{
if (send_answer_1(protocol,&name,&description,&example))
goto error;
}
else
{
/* First send header and functions */
if (send_header_2(protocol, FALSE) ||
send_variant_2_list(mem_root,protocol, &topics_list, "N", 0))
goto error;
if (!(select=
prepare_select_for_name(thd,mask,mlen,tables,tables[1].table,
used_fields[help_category_name].field,&error)))
goto error;
search_categories(thd, tables[1].table, used_fields,
select,&categories_list, 0);
delete select;
/* Then send categories */
if (send_variant_2_list(mem_root,protocol, &categories_list, "Y", 0))
goto error;
}
my_eof(thd);
close_system_tables(thd, &open_tables_state_backup);
DBUG_RETURN(FALSE);
error:
close_system_tables(thd, &open_tables_state_backup);
error2:
DBUG_RETURN(TRUE);
}
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